1989.9－1993.6，中國石油大學（華東），油藏工程學士；
1993.9－1996.6，中國石油大學（華東），油氣田開發工程碩士；
1999.9－2002.6，中國石油大學（華東），油氣田開發工程博士。

油氣滲流理論、化學驅開發理論、稠油熱采開發理論、非常規油氣開發技術及理論

《滲流力學》、《注蒸汽熱力采油》、《油藏數值模擬基礎》、《石油工業概論》

國家自然科學基金、國家科技部項目及獎勵評審專家
《石油科學通報》副主編、《滲流力學進展》、《中國石油大學學報》編委

在讀或畢業研究生72名
博士招生專業：
油氣田開發工程（學術學位博士）
01 油氣滲流理論與方法
02 油氣田開發理論與方法
04 化學法提高采收率理論與技術
05 油氣田信息化與智能開發方法
石油與天然氣工程（專業學位博士）
02 油氣田開發工程
碩士招生專業：
石油與天然氣工程（學術、專業碩士）
03 滲流理論與油氣藏開發工程
06 油氣工程信息與智能技術
07 非常規地質能源開發工程理論與技術
08 地下儲碳儲能理論與技術

承擔國家自然科學基金重點基金、國家重點研發計劃、國家油氣重大專項、國家863計劃等項目50餘項，代表性項目如下：
[1] 國家自然科學基金聯合基金重點項目，U21B2070、柔性膠囊聚合物驅提高采收率的基礎理論研究、2022/01-2025/02、主持；
[2] 國家重點研發計劃課題，2018YFAO702404、稠油化學複合冷采滲流機理及油藏數值模擬方法、2019/09-2024/08、主持；
[3] 中石油重大科技項目課題，ZD2019-184-002、天然氣水合物藏開采機理及儲層改造輔助開發方法、2019/01-2023/12 、主持；
[4] 國家傑出青年基金，51625403、油氣藏滲流力學與提高采收率方法、2017/01-2021/12、主持；
[5] 國家自然科學基金麵上項目，51574269、預交聯凝膠顆粒分散體係微觀滲流的LBM-DEM模擬方法研究、2016/01-2019/12、主持；
[6] 國家油氣重大專項專題，2016ZX05011-003-008、化學驅動態預警方法及油藏工程研究、2016/01-2020/12、主持；
[7] 國家油氣重大專項專題，2016ZX05025-003-006、海上油田全過程提高采收率模式與優化研究、2016/01-2020/12、主持；
[8] 國家自然科學基金麵上項目，10972237、泡沫複合驅油體係在多孔介質中的穩定特征及滲流機製研究、2010/01-2012/12、主持；
[9] 國家自然科學基金麵上項目，10772200、非牛頓流體在多孔介質中微觀滲流的實驗和模擬研究、2008/01-2010/12、主持；
[10] 國家自然科學基金青年科學基金項目，10302021、聚合物驅微觀滲流機理及剩餘油啟動臨界參數研究、2004/01-2004/12、主持；
[11] 國家油氣重大專項專題，2011ZX05011-004-008HZ、化學驅效果評價方法研究、2011/01-2015/12、主持；
[12] 國家油氣重大專項專題，2011ZX05024-004-13、海上油田提高采收率潛力評價及開發方式優化技術研究、2011/01-2015/12、主持；
[13] 國家油氣重大專項專題，2008ZX05011-006-012、高溫高鹽油藏化學驅效果評價及定量表征技術研究、2008/06-2010/12、主持；
[14] 中國博士後科學基金特別資助項目，200902180、儲層參數協同時變對開發規律影響的多尺度模擬研究、2009/09-2010/10、主持；
[15] 中國博士後科學基金麵上一等資助項目，20080440058、無堿高效泡沫複合驅油體係在多孔介質中流動機製研究、2008/12-2009/12、主持；
[16] 國家“863”項目，2007AA06Z216、高溫高鹽油藏無堿高效泡沫複合驅油體係研究、2007/12-2010/12、副組長；
[17] 教育部新世紀優秀人才支持計劃，NCET-11-0734、2012/01-2014/12、主持；
[18] 山東省自然科學傑出青年基金項目，JQ201115、微觀滲流實驗與模擬、 2011/07-2014/07、主持。

[1] 勝利油田邊際稠油高效開發技術與應用(國家科學技術進步獎二等獎)，中華人民共和國，2011，6/10.
[2] 深層稠油油藏多元流體輔助高壓蒸汽驅關鍵技術及應用(中國石油和化學工業協會科技進步一等獎)，中國石油和化學工業協會，2021，1/15.
[3] 非均相複合驅大幅度提高石油采收率的理論與實踐（中國石油和化學工業聯合會技術發明一等獎)，中國石油和化學工業協會，2017，5/10.
[4] 化學驅滲流理論與開發技術及其在高含水油田的工業化應用(中國石油和化學工業聯合會科學技術一等獎)，中國石油和化學工業聯合會，2013，1/15.
[5] 聚驅後地層殘留聚合物再利用提高采收率技術研究與應用(山東省科技進步一等獎)，山東省人民政府，2009，5/12.

[1] 國家傑出青年基金獲得者
[2] 國家“萬人計劃”科技創新領軍人才
[3] 科技部中青年科技創新領軍人才
[4] 教育部新世紀優秀人才支持計劃入選者
[5] 山東省優秀研究生指導教師
[6] 山東省有突出貢獻中青年專家專家
[7] 山東省自然科學傑出青年基金獲得者
[8] 孫越崎青年科技獎獲得者

[1] 提高原油采收率潛力預測方法(專著)，中國石油大學出版社，2007.9.
[2] 油氣層滲流力學(國家級規劃教材)，中國石油大學出版社，2009.4.
[3] 熱力采油技術（高等學校教材），中國石油大學出版社，2013.5.

發表論文200餘篇，近年代表性論文如下：
[1] Zhang, W., Hou, J.*, Liu, Y., Zhou, K., Li, Z., & Du, Q. (2022). Determination of relative permeability curve under combined effect of polymer and surfactant. Journal of Petroleum Science and Engineering, 215, 110588.
[2] Zhao, D., Hou, J.*, Sun, J., Shi, L., Du, Q., & Li, J. (2022). Interwell connectivity inversion method of steam flooding: Based on an analytical model and genetic algorithm. Journal of Petroleum Science and Engineering, 110641.
[3] Ji, Y., Kneafsey, T. J., Hou, J.*, Zhao, J., Liu, C., Guo, T., ... & Bai, Y. (2022). Relative permeability of gas and water flow in hydrate-bearing porous media: A micro-scale study by lattice Boltzmann simulation. Fuel, 321, 124013.
[4] Wu, D., Zhou, K., Zhao, F., Lu, X., An, Z., Liu, S., & Hou, J*. (2022). Determination of Permeability Contrast Limits for Applying Polymer Solutions and Viscoelastic Particle Suspensions in Heterogeneous Reservoirs. Energy & Fuels, 36(14), 7495-7506.
[5] Zhai, M., Zhou, K., Sun, Z., Du, Q., Wei, Y., & Hou, J*. (2022). Study on the matching relationship between dispersed droplet size in O/W emulsion and reservoir permeability. International Journal of Multiphase Flow, 150, 104025.
[6] Zhao, E., Hou, J.*, Ji, Y., Liu, Y., & Bai, Y. (2022). Energy recovery behavior of low-frequency electric heating assisted depressurization in Class 1 hydrate deposits. Fuel, 309, 122185.
[7] Bai, Y., Hou, J.*, Liu, Y., Zhao, D., Bing, S., Xiao, W., & Zhao, W. (2022). Energy-consumption calculation and optimization method of integrated system of injection-reservoir-production in high water-cut reservoir. Energy, 239, 121961.
[8] An, Z., Zhou, K., Hou, J.*, Wu, D., & Pan, Y. (2022). Accelerating reservoir production optimization by combining reservoir engineering method with particle swarm optimization algorithm. Journal of Petroleum Science and Engineering, 208, 109692.
[9] Zhang, B., Jiang, R., Sun, B., Lu, N., Hou, J.*, Bai, Y., ... & Liu, Y. (2022). Establishment of the productivity prediction method of Class III gas hydrate developed by depressurization and horizontal well based on production performance and inflow relationship. Fuel, 308, 122006.
[10] Zhai, M., Du, Q., Wu, G., Sun, J., Sha, Y., & Hou, J*. (2022). Potential of a new water-soluble agent for enhancing heavy oil recovery: A pore-scale investigation. Journal of Petroleum Science and Engineering, 208, 109646.
[11] Zhang, W., Hou, J.*, Liu, Y., Du, Q., Cao, W., & Zhou, K. (2021). Study on the effect of polymer viscosity and Darcy velocity on relative permeability curves in polymer flooding. Journal of Petroleum Science and Engineering, 200, 108393.
[12] Wang, H., Wei, B., Sun, Z., Du, Q., & Hou, J*. (2021). Microfluidic study of heavy oil emulsification on solid surface. Chemical Engineering Science, 246, 117009.
[13] Ji, Y., Hou, J.*, Zhao, E., Liu, C., Guo, T., Liu, Y., ... & Bai, Y. (2021). Pore-scale study on methane hydrate formation and dissociation in a heterogeneous micromodel. Journal of Natural Gas Science and Engineering, 95, 104230.
[14] Zhao, E., Hou, J.*, Du, Q., Liu, Y., Ji, Y., & Bai, Y. (2021). Numerical modeling of gas production from methane hydrate deposits using low-frequency electrical heating assisted depressurization method. Fuel, 290, 120075.
[15] Zhao, E., Hou, J.*, Ji, Y., Liu, Y., & Bai, Y. (2021). Enhancing gas production from Class II hydrate deposits through depressurization combined with low-frequency electric heating under dual horizontal wells. Energy, 233, 121137.
[16] Liu, Y., Hou, J.*, Chen, Z., Bai, Y., Su, H., Zhao, E., & Li, G. (2021). Enhancing hot water flooding in hydrate bearing layers through a novel staged production method. Energy, 217, 119319.
[17] Wu, D., Zhou, K., Hou, J.*, An, Z., Zhai, M., & Liu, W. (2021). Review of experimental and simulation studies of enhanced oil recovery using viscoelastic particles. Journal of Dispersion Science and Technology, 42(7), 956-969.
[18] Wei, B., Hou, J.*, Sukop, M. C., Du, Q., & Wang, H. (2020). Flow behaviors of emulsions in constricted capillaries: A lattice Boltzmann simulation study. Chemical Engineering Science, 227, 115925.
[19] Wei, B., Hou, J.*, Sukop, M. C., & Du, Q. (2020). Enhancing oil recovery using an immiscible slug: Lattice Boltzmann simulation by three-phase pseudopotential model. Physics of Fluids, 32(9), 092105.
[20] Liu, Y., Hou, J.*, Chen, Z., Su, H., Zhao, E., & Li, G. (2020). A novel natural gas hydrate recovery approach by delivering geothermal energy through dumpflooding. Energy Conversion and Management, 209, 112623.
[21] Ji, Y., Hou, J.*, Zhao, E., Lu, N., Bai, Y., Zhou, K., & Liu, Y. (2020). Study on the effects of heterogeneous distribution of methane hydrate on permeability of porous media using low‐field NMR technique. Journal of Geophysical Research: Solid Earth, 125(2), e2019JB018572.
[22] Bai, Y., Hou, J.*, Liu, Y., Lu, N., Zhao, E., & Ji, Y. (2020). Interbed patterns division and its effect on production performance for class I hydrate deposit with mudstone interbed. Energy, 211, 118666.
[23] Wu, D., Zhou, K., Hou, J.*, An, Z., Zhai, M., & Liu, W. (2020). Experimental study on combining heterogeneous phase composite flooding and streamline adjustment to improve oil recovery in heterogeneous reservoirs. Journal of Petroleum Science and Engineering, 194, 107478.
[24] Zhao, E., Hou, J.*, Liu, Y., Ji, Y., Liu, W., Lu, N., & Bai, Y. (2020). Enhanced gas production by forming artificial impermeable barriers from unconfined hydrate deposits in Shenhu area of South China sea. Energy, 213, 118826.
[25] Liu, J., Yan, Y., Zhang, J., Xu, J., Chen, G., & Hou, J.* (2019). Theoretical investigation of storage capacity of hydrocarbon gas in sH hydrate. Chemical Physics, 525, 110393.
[26] Zhou, K., Hou, J.*, Sun, Q., Guo, L., Du, Q., & Liu, Y. (2019). Study on the flow resistance of the dispersion system of deformable preformed particle gel in porous media using LBM-DEM-IMB method. Journal of Dispersion Science and Technology, 40(10), 1523-1530.
[27] Liu, Y., Hou, J.*, Zhao, H., Liu, X., & Xia, Z. (2019). Numerical simulation of simultaneous exploitation of geothermal energy and natural gas hydrates by water injection into a geothermal heat exchange well. Renewable and Sustainable Energy Reviews, 109, 467-481.
[28] Hou, J., Liu, J., Xu, J., Zhong, J., Yan, Y., & Zhang, J. (2019). Two-dimensional methane hydrate: Plum-pudding structure and sandwich structure. Chemical Physics Letters, 725, 38-44.
[29] Du, Q. J., Pan, G. M., Hou, J.*, Guo, L. L., Wang, R. R., Xia, Z. Z., & Zhou, K. (2019). Study of the mechanisms of streamline-adjustment-assisted heterogeneous combination flooding for enhanced oil recovery for post-polymer-flooded reservoirs. Petroleum Science, 16(3), 606-618.
[30] Wei, B., Hou, J.*, Sukop, M. C., & Liu, H. (2019). Pore scale study of amphiphilic fluids flow using the Lattice Boltzmann model. International Journal of Heat and Mass Transfer, 139, 725-735.
[31] Zhou, P., Hou, J.*, Yan, Y., Wang, J., & Chen, W. (2019). Effect of aggregation and adsorption behavior on the flow resistance of surfactant fluid on smooth and rough surfaces: a many-body dissipative particle dynamics study. Langmuir, 35(24), 8110-8120.
[32] Zhou, P., Wang, J., Wang, M., Hou, J.*, Lu, J. R., & Xu, H. (2019). Amino acid conformations control the morphological and chiral features of the self-assembled peptide nanostructures: Young investigators perspective. Journal of Colloid and Interface Science, 548, 244-254.
[33] Liu, Y., Ma, X., & Hou, J.* (2019). Comparing the Effectiveness of SO2 with CO2 for Replacing Hydrocarbons from Nanopores. Energy & Fuels, 33(6), 5200-5207.
[34] Liu, Y., Liu, X., Hou, J.*, Li, H. A., Liu, Y., & Chen, Z. (2019). Technical and economic feasibility of a novel heavy oil recovery method: Geothermal energy assisted heavy oil recovery. Energy, 181, 853-867.
[35] Liu, Y., & Hou, J. (2019). Investigation on the potential relationships between geophysical properties and CH4 adsorption in a typical shale gas reservoir. Energy & Fuels, 33(9), 8354-8362.
[36] Lu, N., Hou, J.*, Liu, Y., Barrufet, M. A., Bai, Y., Ji, Y., ... & Zhou, K. (2019). Revised inflow performance relationship for productivity prediction and energy evaluation based on stage characteristics of Class III methane hydrate deposits. Energy, 189, 116211.
[37] Hou, J., Zhao, E., Liu, Y., Ji, Y., Lu, N., Liu, Y., ... & Bai, Y. (2019). Pressure-transient behavior in class III hydrate reservoirs. Energy, 170, 391-402.
[38] 侯健,吳德君,韋貝,周康,鞏亮,曹緒龍,郭蘭磊.非均相複合驅非連續相滲流特征及提高驅油效率機製[J].中國石油大學學報(自然科學版),2019,43(05):128-135.
[39] Ji, Y., Hou, J.*, Cui, G., Lu, N., Zhao, E., Liu, Y., & Du, Q. (2019). Experimental study on methane hydrate formation in a partially saturated sandstone using low-field NMR technique. Fuel, 251, 82-90.
[40] Du, Q., Hou, J.*, Zhao, F., Zhou, K., Liu, W., & Liu, Y. (2019). A new organic fiber composite gel as a plugging agent for assisting CO2 huff and puff in water channeling reservoirs. Journal of Petroleum Science and Engineering, 179, 70-79.
[41] Liu, Y., Hou, J., Liu, L., Zhou, K., Zhang, Y., Dai, T., ... & Cao, W. (2018). An inversion method of relative permeability curves in polymer flooding considering physical properties of polymer. SPE Journal, 23(05), 1929-1943.
[42] Liu, Y., Bai, Y., Xia, Z., & Hou, J.* (2018). Parameter optimization of Depressurization− to− Hot− Water− Flooding in heterogeneous hydrate bearing layers based on the particle swarm optimization algorithm. Journal of Natural Gas Science and Engineering, 53, 403-415.
[43] Zhou, P., Hou, J.*, Yan, Y., & Wang, J. (2018). The effect of surfactant adsorption on surface wettability and flow resistance in slit nanopore: A molecular dynamics study. Journal of colloid and interface science, 513, 379-388.
[44] Wei, B., Huang, H., Hou, J.*, & Sukop, M. C. (2018). Study on the meniscus-induced motion of droplets and bubbles by a three-phase Lattice Boltzmann model. Chemical Engineering Science, 176, 35-49.
[45] Lu, N., Hou, J.*, Liu, Y., Barrufet, M. A., Ji, Y., Xia, Z., & Xu, B. (2018). Stage analysis and production evaluation for class III gas hydrate deposit by depressurization. Energy, 165, 501-511.
[46] Hou, J., Wei, B., Zhou, K., & Du, Q. (2018). Representing pore shapes by appropriate polygons in pore network models. Journal of Porous Media, 21(4).
[47] Zhou, K., Hou, J.*, Sun, Q., Guo, L., Bing, S., Du, Q., & Yao, C. (2018). A study on particle suspension flow and permeability impairment in porous media using LBM–DEM–IMB simulation method. Transport in Porous Media, 124(3), 681-698.
[48] Wei, B., Hou, J.*, Huang, H., Sukop, M. C., Liu, Y., & Zhou, K. (2018). Entry pressure for the rough capillary: Semi-analytical model, Lattice Boltzmann simulation. Journal of Hydrology, 562, 17-29.
[49] Liu, Y., Hou, J.*, Zhao, H., Liu, X., & Xia, Z. (2018). A method to recover natural gas hydrates with geothermal energy conveyed by CO2. Energy, 144, 265-278.
[50] Hou, J., Ji, Y., Zhou, K., Liu, Y., & Wei, B. (2018). Effect of hydrate on permeability in porous media: Pore-scale micro-simulation. International Journal of Heat and Mass Transfer, 126, 416-424.

授權發明專利50餘項，近年代表性專利如下：
[[1] 侯健; 紀雲開; 杜慶軍 等. Method for correcting permeability model of porous medium in dissociation process of gas hydrate, and method and system for determining permeability of hydrate-bearing porous medium, US202017015896.
[2] 侯健; 趙二猛; 劉永革等. Method for enhancing gas recovery of natural gas hydrate reservoir, US201916600842.
[3] 侯健; 趙二猛; 劉永革 等. Method for obtaining formation parameters of gas hydrate reservoir through well testing interpretation, US201916700239.
[4] 侯健; 陸努; 劉永革 等. Method for calculating daily gas production rate of methane hydrate deposit based on inflow performance relationship formulas, US202016884263.
[5] 侯健; 劉永革; 周康 等. Method used for exploiting natural gas hydrate reservoir, US201816215255.
[6] 侯健; 周康; 劉永革 等. Method for simulation of microscopic flow of pre-crosslinked gel suspension liquid in porous medium, US201815989861.
[7] 侯健; 趙二猛; 劉永革 等. 一種通過人工致密蓋層提高天然氣水合物藏采收率的方法, ZL201910496581.5.
[8] 侯健; 劉永革; 周康 等. 一種水平井分段射孔開發非均質天然氣水合物藏的方法, ZL201810721969.6.
[9] 侯健; 白雅潔; 劉永革 等. 一種分段水平井熱CO2吞吐開采非均質水合物藏的方法, ZL201710402535.5.
[10] 侯健; 劉永革; 周鵬 等. 一種利用流體循環方式動用地熱能開采天然氣水合物藏的方法, ZL201710573395.8.
[11] 侯健; 杜慶軍; 宮汝祥 等. 一種用於複合熱流體多井均質化注入的裝置及方法, ZL201610246870.6.
[12] 侯健; 劉永革; 王文斌 等. 一種利用直井電加熱輔助降壓開采天然氣水合物藏的方法, ZL201610285738.6.
[13] 侯健; 韋貝; 姚軍 等. 一種考慮粗糙表麵特征的岩石毛管力確定方法, ZL201510818606.0.
[14] 侯健; 劉永革; 楊勇 等. 一種聚合物驅相對滲透率曲線的測量方法, ZL201610024682.9.
[15] 侯健; 韋貝; 姚軍 等. 一種考慮凹凸性的岩石孔隙網絡模型的孔喉截麵構造方法, ZL201510818657.3.

[1] Wu, D., Liu, Y., Lu, X., Hou, J., Zhou, K., Wei, B & Zheng, H. (2022, June). Study on Blockage and Fluid Diversion Behaviors of Polymer Microspheres. In SPE EuropEC-Europe Energy Conference featured at the 83rd EAGE Annual Conference & Exhibition. OnePetro.
[2] Zhang, W., Hou, J., Liu, Y., & Du, Q. (2022, February). Effect of shear thickening property of polymer on relative permeability. In Journal of Physics: Conference Series (Vol. 2194, No. 1, p. 012036). IOP Publishing.
[3] Wei, B., Hou, J., & Zhao, E. (2021, October). Effects of Non-Newtonian Fluid Characteristics on Flow Dynamics in Polymer Flooding: a Lattice Boltzmann Study. In SPE Europec featured at 82nd EAGE Conference and Exhibition. OnePetro.
[4] Bai, Y., & Hou, J. (2021, June). Optimization of Depressurization and Hot Water Injection Development for Class III Offshore Hydrate Reservoirs Based on Particle Swarm Optimization. In International Conference on Offshore Mechanics and Arctic Engineering (Vol. 85208, p. V010T11A013). American Society of Mechanical Engineers.
[5] Zhao, E., Hou, J., Ji, Y., Liu, L., & Liu, Y. (2021, November). Influence of sediment properties on low-frequency electric-Joule-heating process in class 1 hydrate deposits. In SPE/AAPG/SEG Asia Pacific Unconventional Resources Technology Conference. OnePetro.
[6] Zhao, E., Hou, J., Ji, Y., Liu, L., Liu, Y., & Bai, Y. (2021, October). The Key Factors of Low-Frequency Electric Heating Assisted Depressurization Method. In 82nd EAGE Annual Conference & Exhibition (Vol. 2021, No. 1, pp. 1-18). European Association of Geoscientists & Engineers.
[7] Wang, H., Hou, J., Guo, Z., He, S., Du, Q., & Li, C. (2020, October). Evaluation of Different Well Converting Patterns with the Distribution of Streamlines on Ultra High Water Cut Reservoir. In Offshore Technology Conference Asia. OnePetro.
[8] Ji, Y., Hou, J., Liu, Y., & Du, Q. (2020, August). Study on Formation and Dissociation of Methane Hydrate in Sandstone Using Low-Field Nuclear Magnetic Resonance Technology. In International Conference on Offshore Mechanics and Arctic Engineering (Vol. 84430, p. V011T11A017). American Society of Mechanical Engineers.
[9] Lu, N., Hou, J., Liu, Y., Zhou, K., Bai, Y., Ji, Y., ... & Zhang, B. (2020, February). Determination the Inflow Performance Relationship for Class II Methane Hydrate Deposits: A Quick Approach to Predict and Optimize Well Performance. In Asia Pacific Unconventional Resources Technology Conference, Brisbane, Australia, 18-19 November 2019 (pp. 668-685). Unconventional Resources Technology Conference.
[10] Du, Q., Shi, L., Hou, J., Ji, Y., & Zhou, K. (2018, October). Inhibition of Gas Channeling by CO2 Foam in Ultra-high Watercut Reservoir: Experimental Investigation Using NMR. In SPE Russian Petroleum Technology Conference. OnePetro.
[11] Zhou, K., Hou, J., Wu, D., & Du, Q. (2018, November). Study on flow diversion caused by deformable preformed particle gel. In Abu Dhabi International Petroleum Exhibition & Conference. OnePetro.
[12] Wei, B., Hou, J., Wu, D., Wang, H., & Liu, H. (2018, December). Pore scale simulation of surfactant flooding by lattice Boltzmann method. In SPE International Heavy Oil Conference and Exhibition. OnePetro.
[13] Wu, D., Zhou, K., An, Z., & Hou, J. (2018, December). Experimental study on the matching relationship between PPG size and reservoir heterogeneity. In SPE International Heavy Oil Conference and Exhibition. OnePetro.
[14] Zhou, K., Hou, J., Ren, X., & Yu, B. (2017, April). Economic design of surfactant-polymer flooding under low oil price. In SPE Oil and Gas India Conference and Exhibition. OnePetro.
[15] Lu, N., Hou, J., Liu, Y., Guo, L., Yuan, F., Wei, C., & Liu, Y. (2017, October). Optimization Chemical Flooding Methods to Enhance Oil Recovery of Strong Heterogeneity, High Temperature and High Salinity Reservoirs-Case Study of Shengli Oilfield. In SPE/IATMI Asia Pacific Oil & Gas Conference and Exhibition. OnePetro.

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